骨质量与骨强度:成骨方法的益处
Bone quality and bone strength: benefits of the bone-forming approach.
作者信息
Iolascon Giovanni, Frizzi Laura, Di Pietro Gioconda, Capaldo Annarita, Luciano Fabrizio, Gimigliano Francesca
机构信息
Department of Medical and Surgical Specialties and Dentistry, Second University of Naples, Naples, Italy.
出版信息
Clin Cases Miner Bone Metab. 2014 Jan;11(1):20-4.
Abstract
The ability of bone to resist fracture depends on the intrinsic properties of the materials that comprise the bone matrix mineralization, the amount of bone (i.e. mass), and the spatial distribution of the bone mass (i.e. microarchitecture). Antiresorptive agents may prevent the decay of cancellous bone and cortical thinning, with no improvement of bone microstructure, leading to a partial correction of the principal bone quality defect in osteoporosis, the disruption of trabecular microarchitecture. Anabolic agents promote bone formation at both trabecular and endocortical surfaces, resulting in an increase of cancellous bone volume and cortical thickness. The improvement of cortical bone strength may be limited by an increase in cortical porosity. strontium ranelate improves trabecular network and cortical thickness that will contribute to anti-fracture efficacy at both vertebral and non-vertebral sites. The results of clinical and experimental studies are consistent with the mode of action of strontium involving dissociation between bone formation and resorption leading to a stimulation both trabecular and cortical bone formation without increasing cortical porosity.
摘要
骨骼抵抗骨折的能力取决于构成骨基质矿化的材料的内在特性、骨量(即质量)以及骨量的空间分布(即微观结构)。抗吸收剂可能会阻止松质骨的衰减和皮质变薄,但不会改善骨微结构,从而部分纠正骨质疏松症中主要的骨质量缺陷,即小梁微结构的破坏。促合成剂可促进小梁表面和骨内膜表面的骨形成,导致松质骨体积增加和皮质厚度增加。皮质骨强度的改善可能会受到皮质孔隙率增加的限制。雷奈酸锶可改善小梁网络和皮质厚度,这将有助于在椎体和非椎体部位发挥抗骨折功效。临床和实验研究结果与锶的作用模式一致,即骨形成与吸收之间的解离导致小梁和皮质骨形成均受到刺激,而不会增加皮质孔隙率。
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